Abstract
The goal is to determinate the technical feasibility of using agroindustrial wastes for adsorption of dyes. The pHpzcof Brewer’s spent grains and Orange peel is 5.3 and 3.5, respectively. The equilibrium isotherms of Basic Blue 41, Reactiive Black 5, and Acid Black 1 were carried out without pHs control which ranging between 4 and 5.5. The equilibrium concentrations for both adsorbents were fitted by the Freundlich and Langmuir models. The maximum adsorption capacity measured for Basic Blue 41, Reactive Black 5, and Acid Black 1 was 32.4, 22.3, and 19.8 mg g-1for Brewer’s spent grains; and 157, 62.6, and 45.5 for orange peel, respectively. The kinetic of process was fitted by the model of pseudo-second order. The constant rate for orange peel decreased to extend the initial concentration of dye increased, obtaining 4.08 * 10−3−0.6 * 10−3(Basic Blue 41), 2.98 * 10−3−0.36 * 10−3(Acid Black 1), and 3.40 * 10−3−0.46 * 10−3 g mg−1 min−1(Reactive Black 5). The best removal efficiency was obtained in orange peel with values started from 63% to 20%. Consequently, according the results obtained there are two positive effects, the reuse of agricultural wastes and its use as low-cost adsorbent of the dyes.
Highlights
The discharges of industrial wastewater containing dyes cause serious environmental problems, because their chemical structure gives them a persistent and recalcitrant nature
Granularactivated carbon has been designated by the Environmental Protection Agency (EPA) of USA as the best available technology (BAT) for organic chemicals removal
Orange peel (OP) from fruit purchased from a local market
Summary
The discharges of industrial wastewater containing dyes cause serious environmental problems, because their chemical structure gives them a persistent and recalcitrant nature. An alternative is the application in processes of wastewater treatment, promoting in this way a sustainable and environmentally friendly development It has been evaluated the performance of different low-cost adsorbents, which can be used only once to avoid the costly stage of regeneration. These studies have included some types of biomass such as agroindustrial or forest wastes, namely, rice husk [5], coconut [6], spent coffee grounds, a byproducts of instant coffee industry [7], wood bark [8], among others. The aim of this research is to explore the technical feasibility of use the waste biomass such as Brewer’s spent grains and orange peel for the biosorptive removal of textile dyes
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